SU1079200A1 - Sowing apparatus - Google Patents

Abstract

1. A SOWING MACHINE, including a housing, a sowing disk with cells, a sowing window, an impeller and an ejector, characterized in that, in order to improve the uniformity of the distribution of the seeds, by sowing them one by one and eliminating the damage to the seeds, in the housing in the area The sowing window is made of a discharge chamber, and each cell has an annular chamfer on the inner side, on which on both sides, along the rotation of the disk, vacuum channels are made, the output ends of which are located on the end surface of the disk. Pusa and connected with the chamber discharge voltage. 2. The apparatus according to claim 1, characterized in that the ejector is made in the form of a nozzle having a bevel in the direction of rotation of the disk, which communicates with the discharge chamber. 3. The apparatus according to claim 2, characterized in that a plate is mounted on the housing on the side of the nozzle bevel.

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to precision sowing machines. A sowing machine is known, including a housing with a sowing disk placed in it, having through holes in the rim and an outer annular groove into which a wedge ejector enters, and an impeller 1 located on the same axis inside the sowing disk 1. The closest to the invention in its technical essence and the achieved result is a seeding apparatus, including a housing, a seeding disc with cells, a sowing window, an impeller and an ejector 2. A disadvantage of the known seeding devices is that they can and the sowing of twins, since at the moment when the cell passes through the sowing window zone, the place of the falling seed immediately takes the next sem, which, under the influence of the centrifugal force and the force of gravity, sinks into the vacated cell. This phenomenon takes place, especially during acceleration and deceleration of the sowing unit, and even when the operating speeds are moving, i.e., 5-10% of the cells are sown in two seeds. In addition, the presence of an ejector in the form of a wedge ejector leads to damage or even destruction of the seeds in the zone of the sowing window. The purpose of the invention is to improve the uniformity of the along a regular distribution of seeds by sowing them one by one and eliminating damage to the seeds. This goal is achieved by the fact that a discharge chamber is made in the housing of the sowing apparatus in the zone of the sowing window, and each cell has annular chamfers on the inner side, on which, on both sides, in the direction of disk rotation, vacuum channels are made, the output ends of which are located on the disk end surface enclosures and connected to the discharge chamber. In addition, the ejector is designed as a nozzle with a bevel in the direction of rotation of the disk, which is in communication with the vacuum chamber. A plate is mounted on the body on the side of the nozzle bevel. FIG. 1 shows a sowing unit, side view; in fig. 2 shows section A-A in FIG. one; in fig. 3 — Sowing unit, side view (the sowing disc is removed). The metering device includes a housing 1 (Fig. 1) in which a sowing disk 2 is placed. Along the rim of the sowing disk 2 there are through-holes 3. Each cell 3 has an annular face 4 on the inside of the disk, in which vacuum channels 5 are formed, so that they have access to the end surface 6 of the sowing disc, sliding as it rotates on the plastic ring 7, which has a vacuum chamber 8, which is connected to the vacuum source by means of the hole 9. At the beginning of the sowing hole 10, a working nozzle is installed on the edge 11 The pulley 13 is folded back in the direction of rotation of the sowing disc. A plate 14 is mounted adjacent to the SOPLOM12 on the housing 1. The sowing disc 2 has an outer annular groove 15, into which a spring chisel 16 mounted on the pin 17 enters, and its non-working end is fixed by a protrusion 18. A seed hopper 19 adjoins the housing 1 of the seeding apparatus, the channel 20 communicates with the cavity 21 of the sowing disk 2. In cavity 21 on the shaft 22 there is an impeller 23, the blades 24 of which are made integral with the ring 25, and each blade has a notch 26 with a width equal to the diameter of the cells 3. The sowing disk has a hub 27 seconds drive star zdochkoy 28 and pins 29 and impeller - drive 30. Star 1ku sowing apparatus operates as follows. Seeds filled into the bunker 19 under the force of gravity through the seed channel 20 are fed into the cavity 21 of the seed disc 2 on the blades 24 of the impeller 23. When the spindle moves, the rotation from the supporting wheel (not shown) is transmitted to the sprockets 28 and 30, which lead to rotation of the seed disc 2 and the impeller 23, with the angular velocity of the impeller slightly less than the angular velocity of the seed disc, so that the seeds are forced to slide along the cellular surface of the seed disc. Under the action of centrifugal force, the seeds fill the cells 3 of the disc one by one, and when the cell approaches the sowing window 10, the seeds located above the cell are sucked through the discharge chamber 8 and vacuum channels 5 to the annular face 4, and by themselves blocking the entrance to the cell to other seeds (from the upper layers) at the time of its unloading in the zone of the seeding window. Unloading is carried out under. the force of gravity, centrifugal force, and the force of suction, provided by the discharge, supplied at the beginning of the seeding window by the nozzle 12. To exclude the possibility of curving the trajectory and free flight of the seed from the action of discharge, a cutoff plate 14, limiting the zone of action of suction force. The seeded seed falls to the bottom of the furrow formed by the furrowing agent (not shown). Pushes the seeds (or foreign particles) randomly jammed from the cells back into the cavity of the sowing disc spring curvilinear chistik 16.

As the cell passes through the zone of the discharge chamber, the discharge supply stops and the sucked seeds, slipping over the surface, again fill the cells.

The use of the invention provides a more accurate along-row distribution of seeds when they are sown, and reduces the likelihood of damage to the seeds inside the sowing apparatus.

15 to the vacuum source

Phage.2

Fig.Z All

Claims (3)

1. SOWING DEVICE, comprising a housing, a sowing disk with cells, a sowing window, an impeller and an ejector, characterized in that, in order to improve the uniformity of row-by-row distribution of seeds by ensuring their sowing one at a time and eliminate damage to the seeds, in the case in the area of the sowing window a vacuum chamber is made, and each cell on the inner side has annular chamfers on which vacuum channels are made on both sides along the disk rotation, the output ends of which are located on the end surface of the housing disk connected to the vacuum chamber. 2. The apparatus by π. 1, characterized in that the ejector is made in the form of a nozzle having a bevel in the direction of rotation of the disk, which is in communication with the discharge chamber. 3. The apparatus according to claim 2, characterized in that a plate is mounted on the housing from the bevel side of the nozzle. d